Kavli Affiliate: Andrew P. Rasmussen
| First 5 Authors: Thierry Lanz, Gisela A. Telis, Marc Audard, Frits Paerels, Andrew P. Rasmussen
| Summary:
We present a non-LTE model atmosphere analysis of Chandra HRC-S/LETG and
XMM-Newton RGS spectroscopy of the prototypical supersoft source CAL 83 in the
Large Magellanic Cloud. Taken with a 16-month interval, the Chandra and
XMM-Newton spectra are very similar. They reveal a very rich absorption line
spectrum from the hot white dwarf photosphere, but no spectral signatures of a
wind. We also report a third X-ray off-state during a later Chandra
observation, demonstrating the recurrent nature of CAL 83. Moreover, we found
evidence of short-timescale variability in the soft X-ray spectrum. We
completed the analysis of the LETG and RGS spectra of CAL 83 with new NLTE
line-blanketed model atmospheres that explicitly include 74 ions of the 11 most
abundant species. We successfully matched the Chandra and XMM-Newton spectra
assuming a model composition with LMC metallicity. We derived the basic stellar
parameters of the hot white dwarf, but the current state of atomic data in the
soft X-ray domain precludes a detailed chemical analysis. We have obtained the
first direct spectroscopic evidence that the white dwarf is massive (Mwd > 1
Msun). The short timescale of the X-ray off-states is consistent with a high
white dwarf mass. Our analysis thus provides direct support for supersoft
sources as likely progenitors of SN Ia.
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